Discussion Closed This discussion was created more than 6 months ago and has been closed. To start a new discussion with a link back to this one, click here.

Deformation of a sphere

Please login with a confirmed email address before reporting spam

I need to evaluate the change in radius of a sphere deformed by its own weight and supported on three points in the "south" emisphere.

Here is how I define my model:
I first create a sphere in 3D, centred in {0 0 0}, with radius, say, 1m.
I create a point in {-1 0 0} then I rotate it -45° around y axis. I then copy this point twice rotating it 120° around z axis.
In subdomain settings, I apply a material to it. I then apply a load in -z direction, equal to 9.8 m/s^2 multiplied by the material density. This way I simulate the gravity acting on the object.
In points settings, I constrain in x, y and z direction the three points I created before. This way I simulate my ideal contact points with my supporting structure.
For the mesh parameters, I use the ExtraFine meshing.
As a solver, I simply choose the Pardiso solver.

To test the isotropy of the problem, I then rotate the sphere (and only the sphere!) by subsequent steps of 10° around the Y axis, repeating again the simulation, with all the other parameters left unvaried.
For the solution, I look at DeltaR=sqrt(u^2+v^2) on the slice defined by the equator of the sphere, i.e the plane containing x and y axes. This is equal to look for the change in radius of the sphere.
First, I expect the centre of the sphere to have DeltaR almost equal to 0 (as the problem is symmetric). Also, I expect the solution not to change when I rotate the sphere (apart from, eventually, small numerical changes). This is not the case, as the difference in the evaluated DeltaR is often one or more orders of magnitude between different solutions.
I would like to understand if this is simply a meshing problem; it seems not, since if I solve the problem with a rough meshing, same differences appear.
Does anybody have a clue of how to solve this problem?

1 Reply Last Post 2009年11月14日 GMT-5 04:19
Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)

Please login with a confirmed email address before reporting spam

Posted: 2 decades ago 2009年11月14日 GMT-5 04:19
Hi

what kind of precision do you expect ?

I would try out several cases, because if you constrain only 3 points these appear as singularities and you can be rather "mesh dependent" basically linked to the mesh around the fixed points.

It would be better in my mind to create 3 small sufaces on the sphere (intersection of a radial cylinder and your sphere.

Next step is to ask yourself how much these surfaces are influenced by the "fix" condition, as this stiffen the surface area. To avoid this you must use average values, that are best obtained by adding weak constraints in Nastran this is the equivalnt of RBE3 elements.

In between you have also the possibility to use local normal coordinates on the boundary conditions, instead of absolute X,Y,Z, and not overconstrain your system.

Good luck, and pls keep us informed about your findings, it's always intersting

Ivar
Hi what kind of precision do you expect ? I would try out several cases, because if you constrain only 3 points these appear as singularities and you can be rather "mesh dependent" basically linked to the mesh around the fixed points. It would be better in my mind to create 3 small sufaces on the sphere (intersection of a radial cylinder and your sphere. Next step is to ask yourself how much these surfaces are influenced by the "fix" condition, as this stiffen the surface area. To avoid this you must use average values, that are best obtained by adding weak constraints in Nastran this is the equivalnt of RBE3 elements. In between you have also the possibility to use local normal coordinates on the boundary conditions, instead of absolute X,Y,Z, and not overconstrain your system. Good luck, and pls keep us informed about your findings, it's always intersting Ivar

Note that while COMSOL employees may participate in the discussion forum, COMSOL® software users who are on-subscription should submit their questions via the Support Center for a more comprehensive response from the Technical Support team.